A wearable camera is one idea to come out of the "casual capture" programme at HP's Bristol labs, which silicon.com visited this week.

There are currently no product plans for the device but the latest prototype being demonstrated here consists of a camera integrated into the centre of the glasses which can simultaneously capture 1.3 megapixel stills at 7.5 frames per second and 0.3 megapixel video footage at 30 frames per second.

The data is stored on a processing unit worn around the waist that can store three hours of footage on its two 20GB disk drives.

The camera is continuously recording footage but the user presses a button on the processing unit when something of interest happens that they want to capture. At this point the machine saves the previous 20 seconds and the next five minutes of camera footage.

Photo credit: Andy McCue

Published: April 12, 2006 -- 09:55 GMT (02:55 PDT)

Caption by: Andy McCue

The quality of the images is surprisingly good - as seen here from footage taken using the prototype wearable camera by HP's Phil Cheatle on a family holiday climbing in the Italian Dolomites.

Cheatle said: "We wanted something that's ridiculously easy to use."

Of course there is too much raw footage for the user to process and select manually so HP developed image filtering and automatic analysis technology to do the hard work for them.

The saved footage is downloaded to a PC where sophisticated head motion detection algorithms determine which bits are most likely to be of interest to the user and whether a still, panorama or video clip is the most appropriate format.

The user can then review the edited footage and raise the "interest threshold" rating so that only highlights are selected or lower the threshold so that more footage is shown.

Photo credit: Phil Cheatle, HP

Published: April 12, 2006 -- 09:55 GMT (02:55 PDT)

Caption by: Andy McCue

HP has developed prototype e-book devices that can be used to read books, newspapers and view digital photograph albums.

Anthony Sowden, project lead on the e-books devices at HP's Bristol Labs said: "We envisage the device as a media viewer."

HP is also looking at integrating audio and video into the devices, which are relatively light and easy to use and have a battery life of around five hours on full brightness.

The latest prototypes use 'riffling' technology that allows the device to show digital book pages that can be turned in a realistic way similar to physical books as seen in the photo above.

Books can be viewed in one-page portrait mode or two-page landscape and the device has touch strips around the edge for scrolling up and down and turning pages.

Some Jane Austen books, which are out of copyright, have been loaded on to the prototypes and HP is currently talking to the Daily Telegraph about the digital newspaper viewer.

Photo credit: Andy McCue

Published: April 12, 2006 -- 09:55 GMT (02:55 PDT)

Caption by: Andy McCue

One of the aims of HP Labs is to develop products for "the next billion customers" who will come from the so-called 'Bric' countries - Brazil, Russia, India and China. Ajay Gupta, director of HP labs in India, said: "In 20 years there will be twice as much opportunity in the Bric countries than the G6."

Representatives from HP Labs India were over in Bristol to demonstrate some of the latest products to come out of the labs in Bangalore.

One of these is called a "gesture keyboard", which allows people to input text on PCs in Indian scripts without knowledge of English or typing. It can be used for inputting data in a local language, internet search, web browsing and email.

There are 1,500 combinations of syllabic units in Hindi so a conventional keyboard with language overlay is not a good solution for those who don't speak English.

Photo credit: Andy McCue

Published: April 12, 2006 -- 09:55 GMT (02:55 PDT)

Caption by: Andy McCue

The gesture keyboard consists of a graphics tablet with an electronic pen or stylus to capture digital ink and a software layer to recognise the shapes. The layout has base characters laid out and the user writes the modifier (matra) on the base consonant cell using the pen.

It took a year for HP Labs in India to develop the handwriting recognition technology for the keyboard and it has a patent for the character positioning and gestures.

HP claims the keyboard will help address the problem of poor PC and computer literacy among non-English speaking people in developing countries.

It takes just 10 to 15 minutes for a Hindi speaker to get to grips with this gesture keyboard, which was officially launched last month. HP licences it to a third party and it costs around $50.

Photo credit: Andy McCue

Published: April 12, 2006 -- 09:55 GMT (02:55 PDT)

Caption by: Andy McCue

The Bangalore labs have also developed printcast technology that allows people to print documents related to information on a TV programme as they watch.

Print applications such as this are more relevant in emerging markets such as India and China where TV and radio broadcasting are much more pervasive than the internet. In India 650 million people have access to a TV compared to 15 million who have access to the internet.

HP Labs India is doing field trials with ISRO, the Indian government's satellite company, and a state government broadcaster and it has been tested in 10 schools in the town of Tumkur near Bangalore.

The software embeds the print document into the TV signal. A decoder then unwraps the document from the TV signal. At the appropriate point during the TV programme the teacher can then print out the relevant document and share it with the pupils.

HP plans to licence the software to set top box manufacturers and the initial use is likely to be for government education programmes. But HP admitted future uses could allow advertisers to let viewers print information related to the advert they are watching.

Photos: Future tech from HP boffins

A wearable camera is one idea to come out of the "casual capture" programme at HP's Bristol labs, which silicon.com visited this week.

There are currently no product plans for the device but the latest prototype being demonstrated here consists of a camera integrated into the centre of the glasses which can simultaneously capture 1.3 megapixel stills at 7.5 frames per second and 0.3 megapixel video footage at 30 frames per second.

The data is stored on a processing unit worn around the waist that can store three hours of footage on its two 20GB disk drives.

The camera is continuously recording footage but the user presses a button on the processing unit when something of interest happens that they want to capture. At this point the machine saves the previous 20 seconds and the next five minutes of camera footage.